Umbrella IntegrationUmbrella Integration (UI) is a method to analyze umbrella sampling simulations [6]. It efficiently reduces noise and provides an estimate of the statistical error in the simulations [8]. It was derived by combining concepts of both umbrella sampling and thermodynamic integration, thus the name. Thermodynamic integration and umbrella sampling are methods to calculate the freeenergy change of chemical reactions. In a special case of the former, the reaction coordinate is constrained to specific values and the force of constraint is sampled. In the latter, a harmonic bias is applied to keep the reaction coordinate near a specified value. This is done in a number of windows along the reaction coordinate. The combination of the windows allows to calculate the freeenergy change along the reaction coordinate. Umbrella sampling simulations are traditionally analyzed using the weighted histogram analysis method (WHAM). In most cases, UI is advantageous over WHAM [6]. In UI, the derivative of the free energy with respect the the reaction coordinate (mean force) is calculated in each window. This derivative (but not the free energy itself) can be averaged over the windows. Integration yields the free energy. Umbrella integration can be performed in one [6] or more [15] reaction coordinates. Usually, a truncation of a Taylor series after the quadratic term is done. Higherorder terms are available, though [27]. The colorful pictures on the right are potential energy surfaces. In the upper picture, the biased potential of umbrella integration (UI) is inserted. The plane in the lower picture indicates the value of the reaction coordinate to which the system is constrained in thermodynamic integration. The bottom picture is a twodimensional freeenergy surface from [15]. Code to perform umbrella integration analysis is available for free upon request. 
